Bottle hooding machine



N. w. LYON Aug. 22, 1939.

BOTTLE HoonING MACHrNE Filed Feb. '7, 1936 11 Sheets-Sheet 1 Aug. 22, 1939. 'N. w. LYQN BOTTLE` HOODING MACHINE 1I Sheets-Sheet 2 Filed Feb. '7, 193e Aug. 22, 1939. 4. w. man 2,170,760,

BOTTLE Hoon-ING MAGHINE i' i v ila Feb. l7,'1936 11 Sheets-Sheet 3 INVENTR I ATTORNEYS Aug. 22, 1939. N. .w. LYON BOTTLE HOODAING MACHINE Filed Feb. 7, 1936 1l Sheets-Sheet 5 Aug. 22, 1939. 1 N. W. LYON 2,170,760i

BOTTLE HOODING MACHINE Filed` Feb. 7, 1936 11 Smets-sheet s Aug. 22, 1939. N. w. LYON BOTTLE HooDING MACHINE 1l Sheets-Sheet 7 Filed Feb. 7, 1936 @ip-f3 y VLM 7J- TToRNEYs Aus. 22, 1939. mw. um 2,170,7so

BOTTLE HOODING MACHINE Filed Feb. 7, 1936 1l Sheets-She-et 8 TroRNEYs Aug. 22, 1939.

N. w. LYQNV BOTTLE HOOD'ING. MACHINE Aus-22,1939 N. w. QON y 2,170,160

.BOTTLE HOODING MACHINE 4 -Filed Feb. '7, 1936 l1 Sheets-Sheet 10'v f BY y x /JMQLM W ATTORNEYS Augrzz, 1939. l y N.w.pLYo- 2,170,760

BOTTLE HOODING MACHINE Filed Feb. 7, 1936 l1 Sheets-Sheet l1 '/M i K C@ /W @#77 TToRNEYs linienaniAng.' J22, 193e UNITED sTATlzsy Variosto PATENT: oFFlc noma noonING MACHINE Norman w. Lynn, springfield, Mus., similar to Package Machinery Company,

Mass., a corporation of Massachusetts Application February '1, 193e, serial No. oasis 23 claims. (sizes-so) This invention relates to machines for applying hoods of flexible and preferably transparent material to the necks of such bottles as are used A for dispensing milk, and has particular reference to mechanism for securing the hood to the bottle neck by encircling the hood with Va band of adhesive coated tape. l Prior-machines designed for this purpose have possessed some disadvantagesV from the standpoint of complexity of structure l0 and inherent slowness of operation which it is the purpose of the present invention to avoid.

One ob t of the present invention is to providefan improved automatic mechanism for ap plying the tape to the bottle neck which will permit the bottle to remain stationary during the entire taping operation. A further object is to providev a. self-contained mechanism rotating about the bottle neck which supplies the,tape,

presses it against the. hood into adherence therego with, and severs the necessary length oi tape. A further object is toprovide improved means for supplying Vand delivering the tape to the bottle.

A further object is to provide improved means control land will not become misplaced upon the 3,-, bottle.Y VA further object is to provide a mechanism oi' the type referred to in which the complexities inherent inprior devices have been obviated. A further-object is to provide a mech-y `anism having greater speed of operation than Y 40 prior devices designed for the same general pur pose. Additional objects will appear from the lfollowing description and claims.

'Referring to the drawings:

Fig. 1 is a side elevation of "a machine embody' 45 ing the invention ;v

Fig. "2 is a section on a horizontal plane through certain driving mechanism. taken on line 2---2014 A unit. ,A rubber block 3l isinterposed between the cam `disk bracket and a' bracket 3l' extending 3 is a section on a vertical plane through 50 the upper portion of the machine, taken online f 3-3 of Fig.'2; l

Fig. 4 is a4v section on a horizontal plane, taken on line'I-Iot Fig: 1, showing the feeding mech anism for the hood material;

55 l 5 is a section online Meer Flg."1;

vIi'I--IIL Il--III Fig. 6 1s n detnu of the feeding mechanism snr the hood material;

Fig, 7 is a detail of the clutch mechanism by which'the operation of the machine is controlled by the presence of a bottle; 4

Fig. 8 is a detail. generally similar to aportion of Fig. 1 but on a larger scale and partly'in section, illustrating the construction of the hood and tape applying head;

Figs. 9 to 13 inclusive of Fig. 8;

Fig. 14 isa detail similar to Fig. 9 but showing the parts in a different operative position;

Fig. l5 is a detail similar to Fig. 12 but showing the parts in a different operative position;

Fig. 16 is al sectional detail illustrating thel manner in which the hood material is initially applied to the bottle; Figs. 1'1 to 20 are details similar, to Figs. 12 and are sections on lines 94h |2-i2 ,and I3-I3 respectively, l

1lil

l5 but showing the parts in successively later positions of .operation Fig.' 2`1 is a sectional detail similarv to Fig. 16 but showing the manner in which a bottle with a completed hood thereon is removed from the machine;

Fig. 22 isadetail of the tape feed; and

Fig. 23 is a detail of the tape severing knife. The mechanism is supported upon vertical .members25 provided with legs 26 andwith a tor (Fig. 1) connected by a belt drive 3| to a gear reduction unit 32., A toothed disk 33 (Figs.v

1 and '1)v is nxedto the upper end of the vertical shaft of this reduction unit. Above and in axial Y alignment with this toothed disk is a cam shaft 34 through which all of the mechanism operating on the bottle derives its movement. Near the bottom -of this camshaft is iixed` a cam disk 3i bearings bracket 36, through which motion is transferred to the shaft from the gearreduction from amember fwhich is iree on the shai't. Pivoted at 40 Von -this'memiier is an arm 4i bearing at one end a detent v42 adapted Ito engage the teeth on the disk-33 and normally held in contact with the-disk bya spring 43; When the detent is in Acontact with the disk the cam shaft is coupled to the toothed disk, and through it to the gear reductionl unit, through the rubber block which serves to cushion the shock of starting the parts in motion.

pivoted et 4s and 4s (Fig. 1 no o bracket n arising from the table 21 are two arms 48 and 49 connected at their ends by a link 58 so as to form a parallel motion linkage. Mounted in the ends of the arms 'is a rod 5| bearing at its top'a bottle receiving cup 52 and held in adjusted po sition by a clamp 53. The cup may be interchanged and varied in its vertical position in order to adapt the machine to bottles of varying sizes. The arm 48 has a rearwardly extending portion bearing a cam roll 54 engaginga crown -cam 55 on the shaft 34, so that during the operation of the machine th bottle receiving cup will be elevated, held in elevated position for a predetermined time, andthenagain loweredto the position shown in Fig, 1. The actual elevation of the'bottle is accomplished by a large spring 44 connected between the table 21 and a rearward extension of the farm 48; so that inequalities in heights of the Vbottle will not be liable'to cause breakage. A vertical arm 55 is pivotedat 51 to the arm 49 and carries at its upperend a pivoted bottle contactar 58, the arm 58 being h eld Vby a spring 59 so that it tends to press lightly against 1 the bottle. A link 88 is pivoted at 5| to the arm 55 and has at its other end a pin and slot guide 52 connecting it to a stationary bracket 53. When a bottle is put in place on the'cup4 52 the arm 55 and the link 58 will be pushed to the right as Viewed in Fig. 1, and a hood 54 pivoted at 55 on the link 68 so as to embrace the cut-away end of vthat arm, will be brought against the end 58 of an arm 61 free on the pivot 45. When no bottle is in place, the lower end of this engages a notch 88 (Fig. 7) in the outer end of -the detent lever 4|, serving the double purpose of .holding the detent l2 out of contact with the constantly rotating notched disk- 33 and of holding the member 38 and the cam shaft 34 stationary When a bottle.

is put in place on the cup 52 the lower end of the arm 51 ismoved to the left as viewed in Fig. 1,

.and the detent lever 4| is released so that the detent enga'ges with the notched disk, causing the cam shaft to rotate and the machine to start on its cycle of operation. As this operation proceeds the cam 55 willrotate; and the parallel motion linkage will be moved by 'the spring to elevate the bottle. The raising of this linkage lifts the moved-to the leftl in Fig. 1 so that it will dropdown in back cf lever end 55. The mechanism for feeding the web of h forming material and for severing blanks therefrom is mounted upon the second table 28. The

.ing roll 13 forequalizing thehood material 18 (1' igs. 1 and 3) is suppliedin roll form from a supnoltinashaftll. a' weighted'V tension strap 12 ofthe usual form being hung over the' roll to prevent overrunning. The mate. rial passesfrom the roll over the customary neaton the web due i' 'to the intermittent'feed 'rne eating :on is en ried on an arml 18 pivoted toa bracket 15.- which for the present .purpose may be considered as stationary, and is held against the web'by a spring 15. From the floating roll the web passes under a stationary bracket 11 having a pair of web crimping plates 18 (Figs. 3, 4 and 6) depending from it and also bearing a freely rotatable web feeding roll 13. Below the' bracket 11 is a. swinging bracket 88, pivoted on a cross shaft 8| and bearing as an extension the bracket 15 previously referred to. The swinging bracket carries a plurality of strips 82, some of them staggered with respect to the strips 18 and coacting with them to produce alongitudinal crimp in the web; and some laterally disposed'with respect to the upper strips so as to furnish an underlying support for the web. 'I'he swinging bracket also carries a lower web feeding roll 83, driven as will be described, and is constantly pressed upwardly, so as to keep the roll constantly pressed yieldingly against the lupper roll 18, by a spring 84. This spring is stretched between the end of bracket 15 andra knife arm' 85, and serves the double purpose f holding the knife cam roll against its cam and of holdingthe feeding rolls yieldingly together. At the same time the feeding rolls and the crimping strips can readily be separated if it is desired t'o thread the end of a freshV web between them.

The crimping of the web is useful in giving the end of the web'suilicient rigidity to stand straight out` over the top of a bottle without the necessity of providing'special supporting fingers. Y

The lower feeding roll is provided vwith a pinion meshing with a gear 81 pivoted to the swingv ing bracket 88 at 88. Attached to the gear 81 is a ratchet 88 actuated at 'intervals by a pawl 98 carried by a pawl arm' 8| valso swinging on the pivot 88. A spring holdback 92 is provided to prevent retrograde motion of the ratchet. A link 83 is coupled to the pawl arm and to one arm of a bell crank 84- pivoted on the table 28 and bearing at its other Vend a roll 95 coaeting with-a cam 88 on the cam shaft 34 and held incontact with its cam by a spring 91. This web feeding arrangement projectsa length of hood material" once at each machine cycle, after which the necessary length is severed by a knife 98 carried at the end of the arm 85 and coacting with astationary knife 98 on the bracket 11. A link |88 iscoupled to the .knife arm at one end'and to a bell crank |8| at the other, this bell crank carrying a roll |82 coacting witha cam |83 on the shaft 3,4. The cam'is 'timed to sever the hood Asheetironi the projecting end of the web at substantially the time that the bottle contacts with it, as will be described later, so that the severed sheet will not fall in spite of the lack of vother support.. Also mounted on the bracket 11 is a device, best shown'in 8, 12, 13, 16 and 21, which drapes and pleats the hood material over the top. of the bottle. Fixed to the lower side of the bracket are four bearings .|85 in which are-'mounted four. pintles |85. Four 'members |81 ai'epivoted on these pintles, andlserve together with fourseg'- mental rings |88 to clamp four piecesA of Vsheet rubber |88. The rubber sheets are cut at their inner ends to a.V circle somewhat smaller than the top of the bottle, and aresevered Vto'forin a cire cumferen'tially disposed `series of ngers |'|8.1 Helical springs are mounted on eachA of the Y' Apintles, and have one end `disposed under the bracket d the other end` under the segmental t a constant yielding force is exerted on therubberngcrs fendingto keep them in a` horizontalV position. The rubber ngersare by reason of their mountingincapable of moving upbut does not rotate.

wardly except by individual flexing, as shown in Fig. 16, so that they-drape the hood material snugly around the bottle and form pleats in its skirt portion; but as the bottle descends as in Fig. 21 they moye as units so as'to avoid any tendency to strip the newly formed hood from the bottle.

The table 28\supports a tape clamp, the function of which can best be explained later. Pivoted at to brackets on the table 28 are arms ||6 carrying at their lower ends a bar ||1 having a tape clamp ||8 fixed at its central portion as shown in Fig. 8. A link I9 is coupled to each arm |I6 at one end and to a rocker |20 at the other, the two rockers being fixed to a cross shaft |2| and one of them being joined by a spring |22 to the table 28. One of the rockers bears aroll |23 (Fig. 3) held by the spring |22 against a cam |24 fixed on the cam shaft 34. Mounted on the bottom of the upper table 29 ls a bearing |25 (Fig. 3) in which rotate twoconcentric sleeves |26 and |21. The first of these sleeves forms a rotatable support for the tape applying meansand `the second acts as a cam shaft for actuating lcertain ltape applying parts. The outer sleeve is supported at its top by a bevel gear |28 which rests upon ya ball bearing |29 on the upper end of the bearing |25; `and the inner sleeve is supported by a bevel gear |30 which rests upon the top of the gear |28. The two gears are driven respectively by bevel gears |3| and |32 both fixed tothe end of a shaft r|33 suitably journaled `on the table 29 and coupled to the upper end of the cam shaft 34 by b'evel gearing |34. The ratios of the pairs of gears driving the sleeves is chosen so that the sleeve |21, which acts as a cam shaft, makes one revolution in a machine cycle while the outer sleeve makes two revolu tions. This permits the outer sleeve to carry the tape applying mechanism twice aroundthe bottle neck, and yet causes a single revolution of the cam shaft |21 relative to this mechanism.

Reciprocable Within the` inner sleeve is a rod |35 carrying at its lower end a conical holder `|36 for the top of the bottle. This rod moves up and down At its upper end the rodfis threaded into a strut |31 extending between the two sides of a yoke |38 pivoted to the table 29 at |39. 'The rod is provided with a handwheel |40 by which it may be threaded up or down in the strut to vary its vertical adjustment,y and with a check nut |4| for holding it in adjusted position. The yoke |38 is provided with a roll |42 heldagainst a cam roll |43 on the shaft |33 byfa spring |44. The` described mechanism serves to hold the conical member |36 against the top of thebottle whenV the latter is in .its elevated position, so that the hood is kept from4 slipping while the tape is being applied, and tov carry the conical member downwardly when the completelyhooded bottle is being lowered togive further protection against the stripping of the hood from the` bottle (Fig.`21). f

The outer sleeve |26 carries a clamp |50 supporting a tape reel |5| (Figs. y1 and 8) and a bottle |52 containing a tapesealing liquid such as a solvent; in case the tape is provided with a soluble adhesive coating. 4 The reel and the bottle rotate with the sleeve during the time when the latter turns. Below 4the clamp |50 is a second j clamp |53 supporting a `housing |54Y in which the various tape applying devices are carried, tlis.;

housing also rotating with the sleeve. The housing carries apair of tape guiding rolls "|55 and |56 disposed below the reel; the firstbeing in line with the reel and the second being at an angle in order'to guide the tape to a feed roll |51 mounted in the housing on a vertical shaft |58. The tape |49 is pressed against the feed roll by a knurled pressure roll |59 freely rotatable on the end of an arm |60 carried on a vertical shaft 6| and given a yieldingv pressure against the feed roll by a spring |62.

The shaft |58 which carries the tape feed rol |51 is journaled in a boss |65 formed in the side of .the housing |54. At -its upper end the shaft carries a friction drive wheel |66 adapted for engagement with a segmenetal driving member |61 formed with a hub |68 (Fig. 8) clamped at |69 (Fig.` 9) to the inner sleeve |21. As is shown in detail in Fig. 22, the wheel |66 is preferably mad of twoopposed conical disks separated from a flange |1| and a washer |12 on the shaft |58 by rubber washers |13. 'I'hese rubber washers can be compressed by a nut |14 on the end of the shaft so that the disks |410 can be forced to engage the slightly tapered sides of the segmental member. |'61 with sufficient pressure to insure a positive drive. The operation of this friction drivewill be clear from a comparison of Figs. 9 and 14. The housing |54, being carried by the outer sleeve, rotates at a speed twice as fast as the segmental member |61 which is carried by the inner s1eeve.` In Fig. 9 the driving wheel |66 moving in the direction of the arrow is just overtaking the segmental member, which is also moving in the direction of the arrow |16 but at a slower rate. The difference in speeds is indicated by the different lengths of the two arrows. It is the relative movement between the two moving members which causes the tape feeding rotation of the shaft |58. Fig. 14 shows a laterstage in the operation, both the wheel and the segmental member having shifted their position, with the wheel having advanced a considerable distance along the periphery of the segmental member. 1

As is best shown in Fig. 8, the feedingV wheel |51 is provided with a shallow central groove |80 and with guiding flanges |8`|. The wheel |59 is relatively narrow, so that it can press the tapeI slightly into the groove |80 and thus crimp the tape sufficiently to give it a rigidity sufficient to permit it to be projected clear of any supportinto.`

adjacency with the bottle. Thewheel |59 pref` l As the tapel is projected past the block `nizitl contacts with the end of a wick |85 extending from a chamber |86gformedin a member` |81 Vcarried by the. arm |60 (Fig. 11) so that it may be `sw ng away from the roll |51 together with the rol |59 to permit the tape to be threaded into place. The chamber |86 is connected by tubing |88, which `may Vif desired ybe provided with the usual regulating and shutoff valve,

with a well |89 formedin a vertically extending` member |90 (Fig. 8) also 4carried by the housing.

Fitting loosely into thewell is a tube 9|- steadied by ,a guide |92 on the housing and fitted tightly into .a cork `|93 which closes the end of the solvent bottle |52. |94, carrying a stopper |95 at its top and provided with a bent lower The end |96, passes freely through the tube. When the bottle, with its cork and the attached tube I9I, is lifted olf the guide |92 for refilling, the rod I 94 drops and its stopper |95 closes the upper end of the tube so that no liquid can run out.

When the bottle is again replaced the bent lower end of the rodstrikes against the bottom of the well and raises the stopper sufficiently so that 'liquid can travel down the tube into the chamber. The bottle then acts to supply solvent to the wick by the usual constant level fountain feed principle.

As the housing starts to rotate the tape will be projected in the manner described, passing the block |82 in a substantially straight line until it hits the hood on the bottle. The bottle is stationary, and the motion of the housing will -cause the tape to be bent rearwardly with respect to the direction of rotation of the housing as is indicated in Fig. 15. As the tape is being projected it passes through an aperture 200 in an applicator finger 20| fixed to the shaft |6| (Fig. 15). A second arm 202 (Figs. 10 and 14) 'fixed on this shaft carries a roll 203 resting against a cam 204 secured by screws 205 to the hub |68 of the segmental member |61, and is held yieldingly against this cam by a spring 206 (Figs. 9 and 10) The arm 20| carries -a roll 201 (Fig. 15) pivoted within the aperture 200 so as toproject slightly inwardly of the arm. 'The mechanism described operates to swing the arm during the rotation of the housing and at a time immediately after the tape has been projected into contact with the hood on the bottle; this swinging movement shifting the roll 201 from the full to the dotted -line position of Fig. 15 so as to press the adhesive tape against the hood. As the rotation of the housing continues the tape driving roll |66 passes beyond the end of the segmental member |61, the cams being set so thatthis action occurs just after the tape has been clamped to the bottle by the applicator roll. .Sufficient positive feed is provided for after the tape has been clamped by the applicator roll so that the pressure member |I8 has a chance to come in and grip the tape to the stationary bottle as shown in Fig. 17, that gure showing the parts in substantially the positions they occupy when the positive feed of the tape stops. From this time on, the tape is held to the stationary bottle by the nger |I8, and as the housing rotates the tape will be drawn out through the now Yfreely rotatable rolls |51 and |59 by being wound around the bottle neck.

This condition of affairs continues until about the position of rotation of the housing shown in Fig. 18. The tape then extends around the bottle neck sufficiently so that the'flnger I|8 can be withdrawn without danger of the tape being pulled loose from the hood. At about this position, therefore, the cam |24 operates to withdraw the finger ||8 so that by the time'the roll 201 reaches the position' of Fig. 19 the finger is com-` pletely out of the Way. The finger ||8 is mounted, as has been previously described, on arms ||6 pivoted at ||5. As the finger moves .from contact with the bottle into the position of Fig. 8 it will turn about shaft I| as a center, and will therefore drop from a position on a level with rolls |51 and |59 in that figure to the position shown. This lowering of the finger carries it well below the roll 201 as shown in Fig. 19.so that no interference will existi The tape has now completely encircled the bottle and is overlapped on itself. It is now necessary to sever it.. For this purpose a knife (Figs. 11 and 23) coacting with the end of thef block |82. The blade and the block are preferably provided with intertting serrations, as shown at 2|I and 2|2 in Fig. 23, in order to insure a quick cutting of the tape while the tape and cutting members are in relative movement. 'Ihe blade 2|0 is mounted on the end of an arm 2|3 pivoted to the housing at 2|4 and bearing a roll 2|5 held against the surface of a cam 2|6 by .a spring 2 I1 (Fig. 11) Thel cam, which is held by the screws 205, gives a short .but rapid movement to the blade While the housing is in rotation, severing the part lof the tape attached to the bottle from the body of the tape web. This body portion no longer feeds out, since at that time the feed rolls-are not being driven by the segmental member |61, but the rotation of the housing continues until the roll 201 Ahas pressed the trailing end of the severed tape against the underlying rst turn of the tape on the hood (Fig. 19) The housing continues in rotation until it reaches its position of rest (indicated by the dotted line positiorf of roll |51 in Fig. 20) ,when it is stopped by the action of the one revolution clutch previously described as being set into operation by the placing of a bottle in the machine. this continued rotation the applicator roll 201 is moved and kept away from the bottle as in Fig. 20.

After the tape has been completely applied to the` bottle and the applicator roll has moved out During of contact with the hood, the bottle elevator moves downwardly to carry the neck of the bottle through the hood pleating ngers into a position in which it can be removed from the machine. During this downward motion of the bottle, the bottle clamping member |36 also moves downwardly asin Fig. 21 in order to prevent the lingers from stripping the hood from the bottle neck. The flngers have very little tendency to do this by reason of their pivotal mounting, which permits them to swing freely in a downward direction as seen in Fig. 21, but since the adhesive on the tape may not have had time to become fully set lon account of the high speed at which the maparts remaining at rest until a bottle is again putin place on the elevator.

What I claim is:

1,. In "a machine forsecuring a hood upon a bottle, means for holding a hooded bottle against rotation, a member rotating about the axis of the stationary bottle, a tape supply carried by the member for rotation with it, means carried by the member for applying a sealing liquid to the tape, tape feeding means carried by the member and operable to project the'v end of the tape into contact with the hood on the bottle, an applicator finger carried by the member, means for moving said nger to press the end of the tape against the bottle and thereafter to hold the nger against the tape to guide and press it into contact with the hood on the bottle as, the member revolves, a nger non-revoluble with respect to the bottle movable to clamp the leading end of the tape against the hood after said end has been applied thereto by the applicator finger, and means for introducing the bottle into and removing it from the zone of operation of said mecha- 2. In a machine for securing a. hood upon a l ai'zofmo Y Y 5.

lbottle, means for holding a hooded bottle against bottle. means for holding a hooded bottle jagainst rotation, a member rotating about the axis oi' the rotation. means for snolllyins a length ofadhesive stationary bottle, means carried by said member tape, a spring pressed linger movable 'a plurality for supplying an adhesive tape, an applicator pi times around the axis of the bottle in one mannger carried by the member', means for moving chine cycle to press the tape into adhesive contact 5 Y said anger against the hood on the bottle and for with the hood. a clamp non-rotatable with respect holding the finger yleldingly thereagai'nst during to the .bottle and positioned to contact with the the rotation o! the member, tape feeding means portion of the tape rst to be laid against-'the carried byisaid member, means for operating said hood by the linger. and means for moving the tape feeding means to project the tape positively clamp to press against the bottle neck v,the said into position to bepressed against the hood by portion ofthe tape after -the nnger has passed the applicator linger, and for permitting the tape by the clamp and for moving the ,clamp out of the to be drawn out bythe rotation of the member path oi said linger before the-linger again reaches after a substantial length thereof has been ap- Ithe'clamp. l j plied to the hood by the -applicatoi'jiingerI and 9. In a machine for securing ahood' upon a 15 means for severing the tapeirom the supply. bottle, means forholding a hooded bottle against 3. In a` machine for securing a' hood upon a rotation, a memberrotatable around theaxis of bottle, means for holding a hooded bottle against the bottle. aslotted linger carried by said niemrotation, a member rotatingabout the axis of the ber. 'a tape supply carried by said member, tape stationary bottle, means carried by said member feed rolls carried by said member and positioned ior supplying an adhesive tape, an applicator to deliver tape through the slotl in the linger, finger carried by the memberfmeans-ioi-moving means carried by said member for applying a said finger against the hood on the bottle and for Selling `lliillll to the tolle. meollo Carried by Sold holding the ringer yieidingly thereagainst during member for severing a length of tolle. and means the rotation oi the member. .tape feeding means for coordinating the operation of said instrumenrotatable with the member and-operable to del .talities so that the leading end of the tape is liver tope into position to be applied to the hood first proiected .throush the slot in the finger into by the applicator linger, and means Ifor severing oontoot with the hood on the'bolilfle. the nger a length of tape alter a portion thereof hasbeen then presses the tape into contact wlththe bottle, l applied to the hood, and after a sumcientlength of-tape has been de- 80 .4. In a machine for securing a hood upon a livered to pass at leest once completely around bottle, means for holding a hooded bottle against the bottle sold length is severed from the body rotation, a member rotating about the axis of the Olathe tellestationery bottle, means carried by said member .10- 4Ina machine for securing ahoodvupon a yfor supplying an adhesive tape, an applicator bottle, means for holding a hooded-bottle against linger carried by the member, means for moving rotation. e member rotatable, around the axis 0f said nnger 'against the hood on the bottle and iorthe bottle. a slotted nnser carried by said member, L holding the nnger yieldinglyV thereagainst dur o' tene supply carried by said member, tape reed ing the rotation of the member, and tape feeding T0118 named by said member and Positioned to l means rotatable with the member and operable deliver tape through the Slot in the linger. means 40 to deliver tape into position to be appued to the carried by. said member for applying a sealing hood by the applicator nnger. l liquid to the talle. means oo-ll'led by Said member 5. In a' machine for securing a hood 'upon a for severing alensth of tapmmenllsffol' operating bottle, means for holding a hooded bottle.' means saidinstrumentalities so that the leading end of rotating about the one of the bottle .for supplying the ,tane is first proiected through the slot in the 4s a length of adhesive tape, means rotating about ilnser into contact with the hood onthe bottle. the axis of the bottle for the tape directly the linger then presses the tape into contact with against thehoodana progressively around its oirthe. hood, and after e sufeient length of tene 'cumierenca and means rotating about the axis'ot has been delivered to pass 'at least once com the bottle for severing a predetermined length 0f pletely around the bottle said length is severed so tape after a portiim thereof has lbeen applied 4to from the body oi' the tape, a clamp non-rotatable .the hood, g with respect to the bottle and positioned to con- 6, I1ja `111150111111; for "securing a hood upon o, mi? with the` 0f the tape mst be laid` bottle, means for holding ahooded bottle against` -nsnlnst the hood by the linger. and means for rotation, a pair of concentric members rotatable mvlll8 the 'ellnll inwardly t0 press against the 55 around the axis of the bottle, means carried' by bottle neck the said portion of the tape after' the one of the members for feeding Aa length of ad- 44ilnsei' has passed by the clamp and for movingnesive tapete and applying it upon the 'hood the clamp outwardly before the linger again around the neck ofthe bottle, cam members carreaches the olnnlp. v ined by .the otherv member for operating said il. In a machine for securing ahood upon ail means, and means for rotating' said concentric bottle. means rotating about the axis of the bottle members et a differential rate such that said for supplying a length of' tape. means rotating y means are carried more than once around ithe about the axis of the bottle for applying the bottle while being caused togo through o'nccomtape to the hood around the neck of the bottle, i plete cycle of operation. a g 4 and means operative during the" action of the 65 '1. In o, machine for securing ahood upon af snplyingmeens-fer-bnldins the tapete the hood bottle, means for holding a hooded bottle against sothat it will not be shifted thereon by the action Y rotation, means for supplying a lengthot'adhesivo 4 o! the applying means. a o tape. a sprlng'pressed ilngermova'ble around ,the-f 12. In la machineior s ecuringa hood upon a ll axis of the bottle to prese the tapeiii' bottle. means for holding the bottle in a sta- 70 contact with the hood; and a clamp non-'rotatable' tionary position. means rotating about the axis with respect tothe bottle and movablegtolpress of the bottle for supplying a length or tape, means against the neck" oi the bottle the' part oi' rotating about the axis of the bottle for applying pe first to be laid against thehood by the the tape to the hood around the neck oi.' the bottle;

Brin a'machine for aya presser'ior holding the tape to the stationary U5 =tape from the supply towards the bottle during the initial part of the cyclical rotation of the carrier, and tape severing means on the carrier.

- 14. In a machinefor securing a hood upon a bottle, a carrier rotatable around the bottle,

means for rotating the carrier through a. denite cyclical rotation, a tape supply on the carrier, means on the carrier for pressing the tape against a hood on the bottle, means on the carrier for feeding the tape from the supply towards the bottle during the initial part of the cyclical rota- 4tion of the carrier, tape severing means on the carrier, and means' for actuating the tape severing means to sever the tape at a predeterminedV period in the cyclical rtation of the carrier.

15. In' a machine for securing a hood upon a bottle, a carrier rotatable around the bottle, means fpr rotating 'the carrier through a definite cyclical rotation, means on the carrier for feed'- ing a length of tape to the bottle, means for actuating said feeding. means during .a'portion only' ofthe cyclical rotation of the carrier, and means onl the carrier for pressing the tape against a hood on the bottle. v

16. In a machine for r`securing a hood upon a bottle, a carrier rotatable around a bottle, xneans for rotating Ysaid carrier a definite cyclical rota-1 tion, a tape supply on the carrier, means on the carrier for pressing the tape against a hood on the bottle, and tape severing means on the car- 1'7. In a machine for securing a hoodupona bottle, a carrier rotatable around a bottle, means for rotating said carrier a denite cyclical rotation, a tape supply on theicarrier, means on the 1 'carrier for treating said tape to render it suili-e` on the bottle. tape severing ciently adhesive to adhere to the hood, means on the carrier for tion, a tape supply `on the carrier, means on the carrier for treating said tape to'render itsuclently adhesive to adhere to'the hood, means on the carrier for pressing thestape against a hood means on the carrier, and means for actuating the tape severing means to sever the tape at a predetermined period in the cyclical rotation of the carrier.

pressing the tape against a hood on the bottle, and tape severing means on so, Y

, the supply.

19. In av machine for securing a hood upon a bottle, a can'ier rotatable around a bottle, means for rotating said carrier a denite cyclical rotation, a tape supply on the carrier, means on the carrier for treat-ing said tape to render it suiciently adhesive to adhere to the hood, means on the carrier for pressing the tape against a hood on the bottle, tape severing means on the carrier, means for feeding the .tape towards the bottle during the initial part f the cyclical rotation of the carrier, and means for actuating the tape severing means to sever the tape at a predetermined period` in the cyclical rotationof the carrier.

20. In, a machine for securing a hood upon a bottle, a carrier 4rotatable around the bottle, means for rotating the carrier througha denite cyclical rotation, feed rollers on the carrier for feeding tape to the bottle, means on the carrier for pressing tape so fed against the hood on the bottle, and means for-driving said rollers during the initial portion'only of the cyclical rotation of the carrier while leaving the rollers free for rotation by the tape as it is wound around the hood. 21. In a bottle -hooding machine, means for draping a hood over the mouth-and neck of thel bottle and holding the hood to the bottle neck, e. supply for adhesive tape rotatable around the neck of the bottle, a device rotatable around the neck of the bottle for pressing said tape directly against the hood while the hood is so held, and

-means automatically operable after a predetermined length of tape has been supplied for severing the tape from the supply.

'22'. In :a bottle ho'oding machine, means for draping a hood over the mouth and-neck .of the bottle and holding the hood to the bottle neck, a supplyjfor tape -rotatable around the neck of the bottle, means for applying a sealing liquid to the tape as it is being supplied, a device rotatable l, 4around the neck of the bottle vvhileY the hood is so held for pressing directly against the hood the tape which has been so treated, and means automatically operable after a predetermined length of tape has been supplied for severing the tape 4 from the supply.

23. In a bottle'hooding machine, means for y draping a hood over the mouth and neck of the bottle and holding the hood to the bottle neck f around a circumference adjacent the bottom edge of the skirt, a supply for Vadhesive tape rotatable around the neck of the bottle, a device rotatable J around the neck of the bottle in a plane above that portion of the hood which is being so Aheld E for pressing the tape directly against the hood while the hood is so held, and means automatil cally operable after a` predetermined length of tape has been supplied for severing the tape from Afa A 

